Mining machine



E. c. MORGAN. MINING MACHINE.

PatentedJflly 25, 1922.

APPLICATION FILED JUNE 27, I910. RENEWED JAN. 7,1911%.

6 SHEETS-SHEET I.

' Patented July 25,- 1922.

E. C. MORGAN.

MINING MACHINE. APPLICATION FILED JUNE 21, 1910. RENEWED JAN. 1,1918.

If a:

? awn Hlh.

."WWWM;

E. c, MORGAN. MINING MACHINE. APPLICATION FILED JUNE 27, I910. RENEWED JAN. 1,1913- Patented July 25, 1922.

6 SHEETS-SHEET 3- MHHHII NIH E. C. MORGAN.

MINING MACHINE.

APPLICATION man JUNE 21, 1910. RENEWED JAN. 7,1913.

' 1 ,424,1 14, Patented July 25, 1922.

6 SHEETS-SHEET 4.

r h n E. C. MORGAN.

MINING MACHINE. APPLICATION FILED JUNK-I27, 1910. RENEWED JAN. 1, 1918.

1,424, 1 14. Patented July 25, 1922.

6 SHEETSSHEET 5.

-E. C. MORGAN.

MINING MACHINE.

APPLICATION HLE JUNE 27. 1910. RENEWED JAN- 7,1918.

1,424,114. r Patented July 25,1922

6 SHEETS-SHEET 6.

UNITED. STATES I EDMUND C. MORGAN, OF MORGAN PARK, ILLINOIS.

MINING MACHINE;

Specification of Letters Patent.

Patented July 25, 1922.

Application filed June 27, 1910, Serial No. 569,168. Renewed January 7, 1918. Serial No. 210,796.

T 0 all whom it may concern Be it known that I, EDM ND G. MoRoAN, a citizen of the United States, residing at Morgan Park, in the county of Cook and State of Illinois, have invented certain new and useful Improvements in Mining Machines, of which the following is a specification.

This invention relates more especially to that type of mining machines which are drawn along the wall of a drift or tunnel while they are being continuously operated.

The main general object of this invention is to provide an improved construction, combination and arrangement of parts according to which a. machine of this character can be simply and durahly constructed and made rapid and eflicient in action.

The primary object is to provide an improved cooperating arrangement between the cutting, breaking down and removing mechanisms.

Another object is to provide improved automatic meanstor breaking down the coal during the progress of the cutting operation.

lVlcre particularly it isthe object of the present invention to provide mechanism for cutting a plurality oi -spacedsa-part horizon tal kerirs and a vertical lrerf spaced back from the face ofthe mine wall to effect the cutting of columns or cores of coal in position to he acted upon by a plurality of superposed pick machines to break down the coal into the range ot operation of the conveyer which is provided with a scooping, receiving end adapted to travel in the plane of the lowermost horizontal lrert. i

Other and further objects will appear in the specificationand be specifically pointed out in the appended claims, reference being had to the accompanying drawings exemplifying the invention, and in which- Figure 1 is a general plan view of a mining machine constructed in accordance with the principles of this invention.

Figure 2 is a side elevation of the same.

Figure 3 is a plan view oi a conveyor tor loading the coal on to the cars. I

Figure 4, "s a side elevation of the same.

Figure 5 is a plan View of an attachment for the machine whereby the coal as it is broken down may be ejected into the path of the endless chain conveyer.

Figure 6 is a side elevation of the same.

Figure 7 is a top plan view of a modified construction of the ejector attachment.

Figure 8 is a side elevation of the same. Figure 9 is a plan view showing diagrammatically the operation of the ejector cooperatively arranged with an ejector plate. Figure 10 is a diagrammatic elevationof the same.

Figure XLXL mg. 1.

Fig. 12 is a detail plan view of the rear portion ofthe machine, partly in cross section; i

Fig. 13 is an end view in cross section on the line 13-13 of Fig. 12.

Referring more especially to the embodiment shown in the drawings, the mining machine is provided with a base member 1 which is adapted to slide along the floor of a drift or gallery, travel being imparted to said base member by means of a drum 2 keyed to a shaft 3 to which motion may be imparted from a worm wheel 4 through the agency of a clutch 5 provided with a shifting lever 65, which is operated in a well known manner. A cable 7 wound upon the drum2 and secured by a hook 8 to a strut 9, serves to oraw the machine along the wall of coal or other material 10. A motor 11 of any suitable construction is provided with a drive shaft 12, to which is keyed at the forward end thereof a driving worm 13 meshing with the worm wheel t. Immediately to the rear of the motor 11 is mounted a side frame comprising uprights 14, 15 and cross bar 16. Botatably mounted in the base member 1 and an overhanging bracket arm 17 of said side frame is a cutter shaft 18 on which are keyed a plurality of cutter heads 19 for making .-..orizontal kert's within the side wall 10, and also an under cutting cutter head 20. Also keyed to the cutter shaft 18 is a spiral gear 21, by means of which the cutter shaft 18 is rotated from a spiral worm 22 keyed to 11 is a detail sect-ion on the line the drive shaft 12. Journaled within a prowhich meshes a spiral worm 28 rigidly secured to the drive shaft 12 in any suitable manner. The cutters thus far described are adapted to cut the vertical slot 29 (see Fig. 1) and the horizontal slots 30, 31, 32 and 33, shown in Fig. 4 and Fig. 10.

In order to provide eflicient means-for breaking down the coal between the several slots, a plurality of picking devices are mounted on the frame and provided with means "for automatically projecting them into the wall 10. These picking devices, which are preferably three in number, to

correspond with the three ridges of coal,

will now be described.

An upper picking device comprises a reciprocable rod 34 slidably mounted in a boss 35 on the cross bar 16, and also supported by a pedestal 36. Projecting laterallyfrom the reciprocable bar 34, is a cam arm 37, between which and the boss 35 is disposed a resilient member, preferably a spring 38, which spring, when the bar 34 is forced rearwardly, tends to return the bar to its normal position, shown in Fig. 1. A washer or flanged projection 39 is preferably employed for an abutment for one, end of the spring 38. In order to provide means forholding the pick bar 34 temporarily, after the spring 38 has been compressed, the latch or lever 40 pivoted at 41 upon a lug rigid with the boss 35 is provided. This lever 40 is maintained in the path of the washer 39 by a compression spring 42, so that whenever said bar 34 is forced rearwardly a detent 43 on the end of the lever 40 slips over and engages said washer 39. A. vertical shaft 44, which is rotatably mounted in the base member 1, and a bracket arm 45 overhanging from the upright 15, serve to mount a cam plate 46 for each picking device, said cam plate being adapted to force the arm 37 with the bar 34 rearwardly until the washer 39 is engaged by the detent 43. Said shaft 44 has mounted thereon a worm gear 47 which meshes with a spiral worm 48 keyed to drive shaft 12. Exactly similar picking devices are reciproc-ably mounted upon the bars 49 and 50 mounted in a similar manner below the bar 34. Each ofsaid reciprocating picks will therefore be moved into retracted position once each time the shaft 44 is completely rotated. Detent lever 40 is adapted to be oscillated to release any one of said picks by means of a handle 51, which may be grasped by the hand of the operator, or, if

it be desired to make the action continuously automatic, a protuberance 52 may be provided on the handle end. of the lever 40 in suitable position to be engaged by a roller on the end of a crank arm 53 rigidly se cured to an upright shaft 54,'which is rotatably mounted in a boss 55 on the base member 1, and a bracket arm 56 projecting from the upright 14. A spiral gear 57, which is also keyed to the shaft 54. meshes with a spiral worm 58 on the drive shaft 12.

Referring now to Figs. 1, 2, 3 and 4, suitable means. for conveying the cut coal rearwardly from the machine for loading into suitable cars is provided by means of an endless chain conveyer 59 provided with laterally projecting arms 60, which move about the chain sprockets 61 and 62 shown diagrammatically on the drawings. The lower chain sprocket 62 is keyed to the upright shaft 44 and derives its movement therefrom. A chute 63 provided with a side rail 64 serves to support and guide the material as it is delivered to the car 65, as shown in Fig. 4. As shown in Figs. 1 and 4 the receiving end of the conveyer comprises a plate at the lower end of the chute 63 and in the plane of the lowermost horizontal kerf.

In order to provide means for holding the machine against the side wall 10 during its operation, a plurality of struts or posts 66 are employed, which press directly aga inst the outside edge of the base member 1. As the cutting operation proceeds, it becomes necessary to remove the struts 66 out of the path of the upper end of the conveyer chute 63. For this purpose, a hammer 67 is mounted on an oscillable shaft 68 which shaft is provided with a projection 69 disposed to be engaged by one end 70 of a bent lever pivoted intermediately of its ends upon a pin 71 rigidly mounted in the base frame 1. A second lever 72 provided with a detent arm 73 is adapted to engage a projection 74 on said'shaft 68. Said lever 72 is provided with an outwardly curved portion 75, which is adapted to be drawn against a post 66 for setting the hammer 67, said hammer being held by the lever 70 engaging the projection 69. An outwardly projecting arm 76, which, as the machine is drawn forward, is engaged by the post 66, serves to force the detent 70 out of engagement with the projection 69, thus allowing the hammer 67 to deliver a blow on the post 66 under the action of a spring 77, which blow knocks the post 66 down, after which it may be set up in another position in the rear of the machine, as shown at 66 in Fig. 1.

Referring now to Figs=5 and 6, means are shown for ejecting the coal which has been broken down by the picking device 34, into the path of movement of the conveyer. This ejector is provided in the form of an attachment comprising an ejector bar or lever 78,

pivotally supported from the base member ejector bar 78 is hollowed to provide a plate portion 81 and a vertically projecting back or web 82. Means for oscillating the ejector bar is provided by a gear 83 mounted on a shaft 8% extending through the base member 1, and having a crank arm 85 keyed thereto on the other side of the base mem her 1, there being a crank pin 86 rigidly mounted on the arm 85 and pivotally engaging the ejector bar '78. Motion may be imp ted to the gear 83 by a drivi pinion 8} connected with the driving shalt 12.

Referring now to Figs. 7 and 8 which show a modification of the ejector device, the. ejector bar 78 is pivotally connected with the base member 1 at 80, the outer end of the bar being similarly formed to that in the other embodiment. In the modification, however, said ejector bar is adapted to be oscillated by means of an eccentric 88, which is keyed to a short vertical shaft 89 rotatably mounted in the, base member 1 and pro vided with a gear 83 driven by a pinion 87.

A device for further assisting the ejection of the coal into the path of the conveyor is shown in Figs. 9 and 10, and consists of a substantially wedge-shaped block or chute 90 which is adapted to be introduced into the under cut33 formed by the lowermost cutter of the machine. Said block 90 is formed with a cayity in its upper inclined face and tapers away from the column of coal which is being broken down. When a lump of coal 91 drops upon the wedgeshaped block 90, it assumes the position shown in Fig. 10, and has imparted to it a tendency to slide forwardly so that when the end 81 of the ejector bar engages it behind, it becomes easily dislodged, and is thrown on to the lower end of the chute 68 in the path of the conveyor.

In order to provide means for minimizing the quantity of loose particles and dust sus pended in the air about the mining machine and which is produced during the cutting and breaking down operations, an airdisplacing device is made use of which in the present embodiment comprises a rotary fan 93 rigidly mounted on a vertical. shaft 94. The fan 93 is preferably disposedimmediately under the motor 11, the upper end of the shaft 96 havinga flanged pulley 95 keyed thereto and driven by an endless belt 96, said belt being adapted to transmit power from a flanged pulley 97 on the motor shaft 12. by means of guide pulleys 98. An intake trough 99 is connected by means. of a channel or passageway 100 with an axial opening into the fan housing. Said intake trough is elongated as shown in Figure 2 to extend approximately the full height of the gallery or drift within which the machine is at work so that the fan exhausts the dust laden air from all stratas. As shown in Figure 1, the intake opening. of the trough 99 is made to conform to the path of the horizontal grooving cutters. A discharge outlet or pipe 101 projects tangentially from the fan housing which may be connected up in any suitable manner with any receptacle or chamber (not shown on the drawings) in which it may be desired to collect the dust and dirt.

In my copending application Serial No. 98,438, filed June 27, 1910, I have broadly claimed some of the subject-matter in common with the disclosure herein, and in my divisional application Serial No. 76,910, filed Feb. 8, 1916, l have described and claimed the loading apparatus and the combination of the loading apparatus with the pick ma chine both disclosed in the present application Serial No. 210,796.

What I claim is:

1. In a machine of the character described, the combination with means for making two horizontal kerfs in the material to be mined, of means for making a vertical kerfintersecting said horizontal kerfs to form a column, and picking means disposed between the horizontal ke-rf-making means and operating from the machine directly against the exposed surface of the mine wall for breakinp; down sections from said column.

2. In a machine oi the character described, the combination with means for making a plurality of horizontal kerfs in the material to be mined, of means for making a vertical kerf intersecting said horizontal kerfs to form a plurality of columns, and picking means disposed between each pair of the horizontal kerf-making means and transverse to the vertical kerf-making means for breaking down the material by action directly against the exposed mine wall surface of said columns. i

3. In a mining machine, the combination with a base member movable along a wall of the material to be mined, of a, plurality of rotating cutters arranged to cut parallel horizontal grooves, a vertically disposed rotary cutter arranged to cut a groove intersecting said horizontal grooves a picking device arranged between each pair of adjlacent horizontal cutters, and a. motor operably connected to each of said cutters and picking devices.

a. In mining; machine, the combination with base member movable along a wall of the material to be mined, of a plurality of rotating cutters arranged to cut parallel horizontal grooves in said wall, a vertically disposed rotary cutter arranged to cut a groove intercepting the bottoms of said horizontal grooves, a reciprocating pick mounted between each pair of horizontal cutters, and means mounted. on said. base forreciprocatinsr said picks and rotating said cutters simultaneously.

5. A mining machine embodying a horizontal grooving tool, a vertical grooving tool, and picking means between said tools and operating from the machine for breaking down the material to be mined.

6. In a mining machine, a base member movable along a wall of material, a horizontal cutter mounted on said base member to project beyond the side thereof, a vertical cutter mounted on said member to overhang on the same side as said horizontal cutter, and a picking device mounted on said base member at an angle between the mounting of said cutters.

7. in a coal mining machine, the combination with a base member movable along a coal wall, of a vertical rotary shaft, a plurality of horizontal cutters keyed to said shaft and adapted to cut parallel horizontal kerfs in said wall, a horizontal rotary shaft extending transversely of the base member,

- a vertical cutter keyed thereto and adapted to out a slot intercepting said horizontal kerfs,, and means mounted on said base member between said shafts for breaking down the coal after the action of said cutters.

8. In a coal mining machine, the combination with a base member movable along a coal wall, of a vertical rotary shaft, a plurality of horizontal cutters keyed to said shaft and adapted to cut parallel horizontal kerfs in said wall, a horizontal rotary shaft extending transversely of the base member, a vertical cutter keyed thereto and adapted to cut a slot intercepting said horizontal kerfs, means mounted on said base member between said shafts and operable from the machine for breaking down the coal after the action of said cutters, and a conveyor having one portion disposed beneath said breaking down means.

9. In a coal mining machine, the combination. with a base member movable along the coal wall, of a vertical rotary shaft, a plurality of horizontal cutters keyed to said shaft and adapted to cut parallel horizontal kerfs in said wall, a horizontal rotary shaft extending transversely of the base member, a vertical cutter keyed thereon and adapted to cut a slot intersecting said horizontal kerfs, and means mounted on said base member between said shafts and operating from the machine for breaking down the coal after the action of said cutters.

10. In a coal mining machine, the combination with a. base member movable along the coal wall, of avertical rotary shaft, a plurality of horizontal cutters keyed to said shaft and adapted to out parallel horizontal kerfs in said wall, a horizontal rotary shaft extending transversely of the base member, a vertical cutter keyed thereto and adapted to cut a slot intersecting said horizontal kerfs, and means mounted on said base member between said shafts and operating independently of the movement of the machine for breaking down the coal after the action of said cutters.

ii. In a mining machine, the combination With a plurality of kerf cutters rotating in approximately horizontal planes spaced apart, of an additional kerf cutter operating in a vertical plane at right angles to the horizontal kerfs and at the bases thereof, a plurality of automaticallyoperated picking devices for dislodging from the mine wall in lumps the material cut out by said horizontal and vertical kerf cutters, and means for conveying away from the mine wall the dislodged material.

12. lhe combination with a plurality of kerf cutters, pick mechanism for dislodging material cut by said kerf cutters, means for conveying away from the mine wall the material dislodged by said pick mechanism, means for operating said kerf cutters, pick mechanism and conveying means, a frame for carrying the aforesaid parts, posts for guiding said frame and holding it near the minewall to permit said kerf cutters and pick mechanism to act thereon, means for slowly feecing the machine forward during operation, and mechanism for automatically loosening the guide posts when the conveying means approach said posts.

13. In a mining machine,'the combination with a plurality of rotary cutters for pr0- ducing kerfs in a mine wall in horizontal planes spaced apart, an additional kerf cutter operating in a vertical plane at right angles to the horizontal kerfs and at the bases thereof, pick mechanism for dislodgingthe material cut out by said kerf cutters, conveying apparatus for removing from the mine wall the material dislodged by said pick mechanism, pneumatic appara tusfor removing dust and fine particles of material produced by said kerf cutters, feeding mechanism for slowly moving the mach ne along the mine wall during the operation of said kerf cutters and said pic-k mechanism, a frame for carrying the aforesaid parts, vertical posts for guiding said frame and holding the same near the mine wall as it is moved forward, and automatic mechanism for loosening the posts one after another as each is approached by said conveying apparatus.

A mining and loading machine comprising a supporting frame, mechanism mounted on said frame for cutting a column by cutting on both sides of a body of material in a mine wall and at the back thereof. so as to cut all around the same, and power mechanismmounted on said frame adjacent said column-cutting mechanism for effecting mechanically the transfer of the cut material from its out position in the mine wall toward loading position independently of the operation of said colirnn cutting mechanism.

15. A mining and loading machine comprising a supporting frame, means for cutting a rectilinear core of material in its native bed in a mine by cutting on both. sides of the core and the back thereof, conveyer mechanism connected to said frame and movable thereivith to be continuously in position for loading the material, and intermediate mechanism mounted on said frame ahead of the receiving portion of said conveyer mechanism and adjacent thereto for effecting mechanically the transfer of the cut material directly from the mine Wall to said conveyor mechanism.

16. A mining and loading machine comprising a supporting frame, mechanism mounted on said frame for cutting in a mine Wall a rectilinear section of material, and means mounted on said frame in position for automatically taking the dislodged material from the mine Wall Where cut and effecting the transfer thereof towardloading position.

17. A mining and loading machine comprising a supporting frame, core-cutting mechanism mounted on said frame and em tending therefrom, means for operating said core-cutting mechanism to cut on both sides and at the back of the core in a mine Wall to produce a rectilinear core a conveyor mounted on said frame in position for receiving dislodged material, and mechanism mounted on said frame for movement relatively thereto and in position to act on the material substantially in the space originally occupied thereby in its native bed to transfer substantially all of such material onto said conveyor.

18. A mining and loading machine comprising a supporting frame, mechanism mountcd'on said frame for cutting a core of material in a mine Wall, means for operating said core-cutting mechanism including rectilinear feeding of said supporting frame along the mine Wall, means in position on said frame for transferring dislodged ma terial from the mine Wall toward loading position, and mechanism on said frame extending therefrom to a position ahead of the receiving means for moving the dislodged. material over the mine floor onto said receiving means. i

19. A. mining and loading machinehaving supporting frame-Work in common, corecutting mechanism mounted on said frame Work in position for cutting rectilinear cores in mine wall adjacent said frame-vvork, and loading apparatus mounted on said frame-Work in. fixed relation thereto for taking the material. directly from its originally occupied position in the mine Wall and moving it toward loading position.

20. A mining and loading machine comprising a supporting frame,means comprising a plurality of spaced-apart l erf-cutters mounted on said frame for dislodging mew terial from the mine Wall in the form of rectilinear columns, a conveyor connected to said frame and movable bodily therewith, and means for acting on the material in the position which it assumes after being dislodged to slide such material'onto said conveyer.

21. A mining and loading machine comprising a supporting frame, kerf-cutting mechanism mounted thereon, means for operating said kerf-cutting mechanism including the feed thereof to out a rectilinear core of material in a mine Wall, conveying mechanism mounted on said frame in fixed relation thereto, and means mounted on said frame and movable relatively thereto to act on the material at the mine Wall to transfer the same onto said conveyor.

22. A mining and loading machine comprising a supporting frame, a plurality of separate kerf-cutters mounted thereon, means for operating said kerf-cutting mechanism including rectilinear feed thereof to effect the cutting of a kerf above a rectilinear core of material, at the back thereof spaced from the face of the mine Wall and below the core, a conveyor mounted on said frame in fixed relation thereto, and power mechanism mounted on said frame for delivering the material of said core to said conveyor.

23. A mining and loading machine comprising a supporting frame, means comprising a plurality of plane kerfcutters mounted on said frame for dislodging material from a mine wall in the form of rectilinear cores, 1 00 a loading conveyor mounted on said frame in fixed relation thereto and apparatus comprising a ver ical device mounted on said frame for moving the dislodged material onto said conveyor. I

24. A mining and loading machine comprising a supporting frame, mechanism mounted thereon for cutting a solid rectilinear core of material. along a mine Wall, means mounted on said frame for dislodging 110 the cut material, and mechanism in position on said frame for taking the dislodged material from its native position and moving it toward loading position at the rear of said frame.

25. A mining and loading machine comprising a supporting frame, means mounted on said frame for cutting a single rectilinear core of material in its native bed in a mine, means mounted on said frame in position for 120 breaking the core into large blocks independently of movement of said frame, and means mounted onsaid frame for moving the dislodged blocks of material from the mine wall relatively to said frame and to- 126 Ward loading position independently of the movement of said frame.

26. A mining and loading machinecomprising a frame, means mounted thereon for cutting a rectilinear core efi'naterial in its 110 native bed adjacent said frame, mechanism mounted on said frame in position to act directly on the core while still in its native position for breaking sections from such core during the operation of said core-cutting means, and mechanism mounted on said frame in position for taking dislodged material immediately after being dislodged and moving the same toward loading position while said core-cutting means continues in operation.

27. A mining and loading machine comprising means for cutting spaced-apart kerfs at the sides of a rectilinear column of material in its native bed and also a communicating kerf at the back of such column, a supportingframe for such cutting means, conveyer mechanism mounted on said frame and extending from a position near the cut ting mechanism rearwardly toward loading position, and means mounted on said frame for effecting the transfer of the cut material directly from the mine wall onto said conveying mechanism.

28. A mining and loading machine comprising a supporting frame, mechanism mounted thereon, and extending therefrom to cut a core of material along a mine wall, means mounted on said frame and extending therefrom on the side from which said cutting mechanism extends for dislodging the cut material, and conveyer mechanism connected to said frame and movable bodily therewith in position for taking the dislodged material and moving it diagonally across the rear end of the machine.

29. A mining and loading machine comprising a supporting frame, means mounted thereon and extending therefrom to cut a rectilinear core of material ina mine wall adjacent said frame, endless conveyer mechanism mounted on said frame in predetermined relation thereto and for movement bodily therewith, and intermediate mechanism on said frame and extending from a position at the same side of the frame from which said core-cutting mechanism extends for effecting the transfer of dislodged material from the mine wall onto said conveyer mechanism.

30. In a mining and loading machine, the combination with mechanism for cutting a core in a mine wall in one operation, of mechanism connected to the machine for acting on the core to dislodge the same during the operation of said cutting mechanism, apparatus for operating said disledging mechanism at intervals, and means for receiving the dislodged material and moving it toward leading position. I

31. In a mining and loading machine, the combination with a portable frame, of means comprising separate spaced-apart 'kerf-cntters mount-ed: thereon 01 disledging material from [a wall/onto the floor adjacent said frame, loading apparatus con nected to said frame to move bodily therewith, and means mounted on said frame intermediate the dislodging means and said loading apparatus for pushing the material off the mine floor into position to be operated upon by said loading apparatus.

A. mining and loading machine comprising a supporting frame, a pick mounted thereon and extending therefrom toward a mine wall adjacent said frame, means for automatically holding said pick in retracted position at spaced-apart intervals, automatic mechanism for repeatedly releasing said holding means to cause said pick to strike intermittent blows against the mine wall to dislodge material therefrom, a conveyer mounted on said frame and extending to a predetermined receiving position in fixed relation to said frame, an ejector mounted on said frame in position for operating on the material where dislodged by said pick, and means for operating said ejector to move the material dislodged by said pick to the receiving end of said conveyer.

A mining and loading machine comprising a supporting frame, means mounted thereon for cutting upper and lower spacedapart kerfs in a mine wall and an additional kerf spaced back from the face of the mine wall in an upright plane transverse to the plane of said spaced-apart kcrfs, mechanism mounted on said frame for movement relatively thereto and relatively to said cutting means fordislodging the cut material, and loading apparatus mounted on said frame to move bodily therewith and extending to a receiving position adjacent the range of operation of said dislodging mechanism.

34. A mining and loading machine comprising a longitudinal frame, mechanism mounted on said frame for cutting a core of material along a mine wall at one side of said frame, means on said frame extending transverselythereof and laterally therefrom to act transversely on said core to dislodge material therefrom, and conveycr mechanism mounted on said frame to move bodily therewith and extending to a receiving position for taking the dislodged material from the longitudinal. side of the machine adjacent the mine wall and moving such dislodged. material diagonally across the path ofthe machine toward loading position.

A. mining and loading machine comprising means for cutting a rectilinear core of material from its native bed by cutting spaced-apart kerfs and a back kerf leavimr 1 the core bounded by such kerfs and the face of the mine wall and leaving the core integral at one end with the material in its native bed, a frame for supporting said cutting means, means on said frame and movable relatively thereto adjacent said cutting means forbreaking the core into large blocks,

and means on said frame adjacent said breaking means and movable bodily with said frame for automatically moving the dislodged blocks of material from the mine wall toward leading position.

36. A mining and loading machine comprising means for cutting a core of material from its native bed by cutting kerfs all around thecore except at the face of the mine wall and except its integral connection at one end with the unmined mass, a pick machine acting directly on the core in its original position at the mine wall for breaking said coreafter being cut, a frame for si'igport'ng said cutting means and said pick machine adjacent to each other and adjacent to themino wall, and mechanism mounted on said. frame for automatically taking the dislodgedmaterial from its position at the mine wall immediately after being broken down and moving the same toward loading position i 37. A mining and loading machinecomprising a supporting frame, means mounted on said frame for cutting spaced-apart kerfs and a rear upright plane intersecting kerf to effect the cutting of a core of material in a mine wall bounded by the face of the mine wall, upper and lower flat surfaces and the rear flat surface, conveyer mechanism mounted on said frame in spaced relation with said corecuttin;; means and movable bodily with said frame, and mechanism on said frame intermediatesaid core-cutting means and said conveyor mechanism for operating movement relative to said frame for transferring the dislodged material onto said conveyer mechanism.

A mining and loading machine coma supportingframe, an upright korf cutting a kerf in an upright plane spaced back from-the face of the mine wall and intersecting a plurality of previously cut traiiisverse kerfs, a shaft mounted on said frame and extending therefrom to said kerf cutter, means for operating said kerf cutter including the feed thereof transversely of said shaft, means for dislodging the cut material in advance of said shaft-i and loading I apparatus mounted on said frame for receiving the dislodged material and conveying it toward loading position.

mining and loading machine comprising a frame, kerf-cutting mechanism mounted on said frame, means for moving said frame and said cutting mechanism bodily to effectfeeding of said cutting mechanism, means for actuating said cutting mechanism durin the forward feed of said .1! i b .LI'fLlTlB, breaking mechanism connected to frame and movable bodily therewlth during the forward feed thereof to act on nism automatically during the forward feed of said cutting mechanism, and conveyor mechanism connected to said frame and movable bodily therewith and extending to a position to receive the dislodged material and convey it toward loading position.

40. A mining and loading machine comprising a longitudinal frame, a plurality of horizontal spaced-apart kerf cutters projecting from one side of said frame, an upright 7 kerf cutter spaced back from the mine wall, supporting mechanism extending from said frame to said upright kerf cutter to hold the same spaced back from the mine wall behind said first-named kerf cutters and in position to cooperate with said first-named kerf cutters to cut a body of material parallel to the path of said frame and adjacent thereto, loading apparatus connected to said frame and comprising a traveling conveyor extending to a receiving position on that side of the frame from which the said kerf cutters extend and which move along the mine wall adjacent thereto,"and means for operatingsaid kerf cutters and said loading apparatus including the bodily forward feed of the entire machine to mine and load a body of material from one side of the path of the machine and parallel to such path to the other side of said machine and parallel to such path.

41. A mining and loading machine com prising a longitudinal frame, means mounted on said frame adapted to effect feeding movement thereof in its longitudinal direction, a plurality of kerf cutters extending laterally from said frame, an upright kerf cutter spaced back from the face of the mine wall, a horizontal shaft for said upright kerf cutter and mounted on said frame back of said spaced-apart kerf cutters, a plurality of picks mounted on said frame ahead of said horizontal shaft and extending laterally from said frame to act on the cores produced by said kerf cutters, mechanism for auto matically operating said picks to dislodge material from said cores, an endless conveyer at the rear end of said frame and extending from a receiving position at one side of said frame adjacent said upright kerf cutter, a driving shaft extending longitudinally of said frame, power transmission gearing between such driving shaft and said kerf cutters, between such driving shaft and such conveyor and between such driving shaft and the automatic mechanism for operating said picks, ejector mechanism also connected. for operation to said driving shaft and ex tending laterally from said frame beneath the picks and ahead of the receiving end of said conveyer, and a motor mounted on said frame and connected to said driving shaft and also to the said means for moving said frame in its longitudinal direction.

42. A mining machine comprising a supporting frame, of a horizontal grooving tool extending from one side thereof, a vertical grooving tool mounted on said frame and located at that side thereof on which said hori zontal grooving tool is mounted, and picking means mounted on said frame between said tools in position to operate laterally from said frame for breaking down material cut by said grooving tools, 7

4: 3. A mining and loading machine compris inga supporting frame, a plurality of spaced-apart kcrf-cuttcrs including an wider-cutting tool extending outwardly from said frame to operate adjacent the floor of a mine, a second cutter mounted on said frame and spaced therefrom to operate transversely of the first-named cutters to loosen material from its native bed. in a mine, means for driving said cutters, a conveyer mounted on said frame, and means for moving dislodged material. into the range of operation of said. conveyer.

a l. In a mining machine, the combination with kerf-cutting mechanism, of a pick machine, a conveyer, an ejector for removing the material. dislodged by said pick machine and kerf-cutting mechanism into the path of said conveyer, and mechanism for operating said ejector and said pick machine in synchronism to cause said ejector to act automatically immediately after the operation of said pick machine.

In a mining machine, the combination with kerf-cutting mechanism, of a pick, automatic mechanism for reciprocating said pick to cause the same to strike hammer blows against the mine wall todislodge the material therefrom adjacent the kerfs produced by said kerf-cutting mechanism, a conveyer, an ejector, and means for operating said ejector in automatic syn'chronism with said pick-operating means to cause said ejector to push said ejector into position for moving said dislodged material immediately after the pick is pushed into the mine wall.

L6. A mining and loading machine comprising a supporting frame, means mounted thereon for cutting upper and lower spacedapart kerfs in a mine wall and an additional kerf spaced back from the face of the mine wall in an upright plane transverse to the planes of said spaced-apart kerfs, mechanism mounted on said frame for movement relatively thereto and relatively to said cutting means for dislodging the cut material, and loading apparatus extending to a receiving position adjacent the range of operation of said dislodging mechanism.

47. A long wall mining machine compris ing a plurality of spaced-apart parallel kerfcutters, a vertical kerf-cutter following said parallel kerr-cutters and spaced from the mine wall to effect the cutting of a core of material in the mine wall leaving the forward end integral therewith, and mechanism.

intermediate the parallel kerf-cutters and said vertical kerf cutter to break said core of material.

48. In a mining machine, the combination with a plurality of kerf-cutters spaced-apart, of means for operating said kerf-cutters to produce parallel spaced-apart kerfs along the mine wall, a vertical kerf-cutter spaced back from the face of the mine wall and having a shaft perpendicular to the mine wall, and means for breaking down the cut material ahead of said shaft.

49. In a mining machine, the combination with a plurality of kerf-cutters, an additional kerf-cutter operating in. a plane at ri ht angles to the planes of said first-named kerf-cutters, and means located between the first-named kerf-cutters and said secondnamed kerf-cutter for dislodging from the mine wall a core of material cut out by all of said kerf-cutters.

50. In a mining machine, the combination with a frame, of means for feeding said frame along a mine wall, a plurality of kerfcutters spaced-apart mounted on said frame, means for operating said kerf-cutters to produce a plurality of horizontal spacedapart parallel kerfs in the mine wall, a vertical kerf-cutter spaced back from the mine wall, and pick mechanism back of said hori- Zontal kerf-cutters and aheadof the shaft of said vertical kerf-cutter for dislodging from the core material severed by said kerfcutter.

51. A long wall mining machine comprising a supporting frame, a plurality of spaced-apart kerf-cutters mounted on said frame for producing parallel kerfs in substantially horizontal planes, a vertical kerfcutter spaced from the face of the mine wall to co-operate with said horizontal kerf-cutters to cut a core of material in a mine wall and extending back along the same, said vertical kerf-cutter having a shaft extending from said frame, pick mechanism operating behind the horizontal kerfcutters and head of the shaft of the vertical kerf-cutter for dislodging the core, and conveyer mechanism mounted on said frame for taking the dislodged material and moving it toward loading position.

52. A mining machine comprising two spaced-apart kerf-cutters for producing substantially horizontal parallel kerfs in a mine wall, a vertical kerfcutter spaced from the face of the mine wall and cooperating with said horizontal cutters to cut a core of material in the mine wall, and means acting on the core to dislodge the material therefrom before the central portion of said vertical lrerf-cutter appioaches said core.

53. A mining machine for dislodging parallelepipedons from a mine wall comprising a plurality of kerf-cutters operating in sub stantially horizontal planes to produce parallel spaced-apart kerfs in a mine wall, a vertical kerf-cutter spaced back from the face of the mine wall, a shaft for said vertical kerf-cutter substantially perpendicular to the mine Wall, means for operating the hori zontal kerf-cutters and said vertical kerfcutter, and pick mechanism for acting on the cut material before approach by said shaft for dislodging such material substantially in the shape of parallelepipedons.

54. A mining machine comprising a supporting frame, a plurality of kerf-cutters mounted on said frame for producing substantially horizontal kerfs in a mine wall spaced-apart and substantially parallel with each other, a vertical kerf-cutter spaced back from the mine wall, a horizontal shaft for said vertical kerf-cutter located on said frame substantially perpendicular to said mine wall, means for operating said horizontal kerf-cutters and said vertical kerfcutter, pick mechanism mounted on said frame to be automatically operated for intermediately dislodging the backward projecting core of material cut by said kerfcutters, and conveyer mechanism mounted on said frame for taking the dislodged material and moving it toward loading position.

55. In a mining and loading machine, the combination with core-cutting mechanism, of means for operating the same including continuously acting feeding mechanism, intermittently operated pick mechanism for dislodging the core of material, and loading apparatus comprising conveyer mechanism in position to receive the dislodged material and carry it toward loading position.

56. The combination with a main frame movable laterally along a coal face, a horizontally projecting cutter to undercut the coal, a plate arranged to move in the plane of the kerf cut by said undercutter, a conveyer extending in operation from points outside the coal face to points innermost the line of the kerf and arranged to follow the lines of travel of a cutter and to have said plate deliver coal thereto, motor and power mechanism on the main frame in front of the conveyer, and means for breaking the coal down adapted to attack the coal above the under-kerf at an angle to the front face of the coal.

57. In a mining and loading machine, the combination with a supporting frame, of cutting mechanism mounted thereon and comprising an undercutting kerf-cutter,

58. In a mining and loading machine, the

combination with a supporting frame movably laterally along the coal face, of a horizontally projecting cutter to undercut the coal, means mounted on said frame to dislodge the coal above the under kerf and form a continuously advancing face substantially at right angles to the normal coal face,'loading apparatus comprising a traveling conveyer and a chute mounted on said frame and having a receiving plate arranged to move in the plane of the under kerf back of said advancing coal face in position to scoop up the dislodged coal, means fordriving said undercutter, and means for moving said frame along the coal face to'effect feeding movement of said undercutter and scooping operation of said plate.

59. In a mining machine, the combination with a portable supporting frame, of corecutting mechanism having an unobstructed opening therethrough for the passage of the core extending parallel to the path of travel of said portable frame, means comprising an electric motor for driving said core-cutting mechanism, rope-winding mechanism mounted on said frame and comprising a rope with its free end adapted to be anchored in a mine chamber, transmission gearing between said motor and said ropewinding mechanism, and a clutch for controlling the connection of said transmission gearing to said rope-winding mechanism to eifect the operation of the latter and the feedin of said core-cutting mechanism independently of the driving of said corecutting mechanism.

In testimony whereof I have signed my name to this specification, in the presence of two subscribing witnesses, on this 21st day of June, A. D., 1910.

- EDMUND G. MORGAN. Witnesses:

CHARLES W. MILLER, G. E, MQKINLEY. 

